1 There are several classic problems related to memory on Linux
4 1) There are some buggy motherboards which cannot properly
5 deal with the memory above 16MB. Consider exchanging
8 2) You cannot do DMA on the ISA bus to addresses above
9 16M. Most device drivers under Linux allow the use
10 of bounce buffers which work around this problem. Drivers
11 that don't use bounce buffers will be unstable with
12 more than 16M installed. Drivers that use bounce buffers
13 will be OK, but may have slightly higher overhead.
15 3) There are some motherboards that will not cache above
16 a certain quantity of memory. If you have one of these
17 motherboards, your system will be SLOWER, not faster
18 as you add more memory. Consider exchanging your
21 All of these problems can be addressed with the "mem=XXXM" boot option
22 (where XXX is the size of RAM to use in megabytes).
23 It can also tell Linux to use less memory than is actually installed.
24 If you use "mem=" on a machine with PCI, consider using "memmap=" to avoid
25 physical address space collisions.
27 See the documentation of your boot loader (LILO, loadlin, etc.) about
28 how to pass options to the kernel.
30 There are other memory problems which Linux cannot deal with. Random
31 corruption of memory is usually a sign of serious hardware trouble.
34 * Reducing memory settings in the BIOS to the most conservative
37 * Adding a cooling fan.
39 * Not overclocking your CPU.
41 * Having the memory tested in a memory tester or exchanged
42 with the vendor. Consider testing it with memtest86 yourself.
44 * Exchanging your CPU, cache, or motherboard for one that works.
46 * Disabling the cache from the BIOS.
48 * Try passing the "mem=4M" option to the kernel to limit
49 Linux to using a very small amount of memory. Use "memmap="-option
50 together with "mem=" on systems with PCI to avoid physical address
56 * Try passing the "no-387" option to the kernel to ignore
59 * Try passing the "no-hlt" option to disable the potentially
60 buggy HLT instruction in your CPU.